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`Dement Innovation Record View
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`[0003] POE system comprises power supply terminal device, Power Sourcing Equipment (PSE) and a power
`receiving end device (PD, Power Device) two parts. the PSE device is Ethernet client terminal device power
`supply device, at the same time, it is the manager of the whole Ethernet POE power supplying process. The PD
`device is receives power PSE load, namely the client end device of the POE system, such as an IP telephone,
`network security camera, AP and palm computer (PDA) or mobile phone charger and so on many other
`Ethernet device.
`
`[0004] Because the POE power supply only needs to install and support a cable, so powered by POE, structure
`is simple and saves space, and the device can be moved freely. the place with difficult deployment AC power
`supply, powered by POE, can save the expensive power supply and power consumed by time. However, the
`difficult deployment AC power supply of the local environment are very severe, often exceeds the device can
`bear temperature of working temperature. when the over device can bear the temperature, appear device
`transceiving data error, cannot identify data cannot work, even burning condition of the hardware device, and
`the temperature of the device is difficult through manual real-time detection.
`
`[0005] Therefore, aiming at the disadvantage of the existing technology, urgent need to provide a temperature
`control device for control POE power supply of temperature in real time.
`
`Contents of the utility model
`
`[0006] This utility model aims to avoid the disadvantages in the current technology and provides a temperature
`control device for control POE power supply of temperature in real time.
`
`[0007] This utility model the purpose through the following technical measures:
`
`[0008] A POE power supply of the temperature control device, which is used for joint POE power supply device
`and POE electricity device, the POE the power supply device is provided with a network wire and connected
`with the network wire plug of network wire, the POE power receiving device provided with a power input socket
`and a first network input socket, the POE power supply of the temperature control device comprises a shell, a
`power wire,
`a signal connection line and a temperature value is used for detecting the environment
`temperature and according to the detected setting in the shell of the output control signal of the temperature
`control circuit; and a communication signal and a power supply signal separation power supply circuit, said
`shell is provided with second network input socket, cable output socket, a power output socket and a warning
`device, the network line plug inserted into the second network input socket; the second network input socket
`connected with the input end of the electric source circuit,
`the output end of the power supply circuit are
`respectively connected with the input end of the temperature control circuit and the power supply output
`socket; the control signal output end of the temperature control circuit connected with the alarm device. two
`ends of the signal connection line respectively connected with the network wire output socket and the first
`network input socket, the power supply wire output socket and the power supply input socket connected with
`the power supply respectively.
`
`the
`the POE of the shell one end of electric device is provided with a cooling device,
`[0009] Preferably,
`temperature control circuit comprises a first temperature control switch circuit and a second temperature
`control switch circuit.
`the first
`temperature control switch circuit
`is used for detecting the environment
`temperature, when the detected temperature value exceeds the preset temperature value when the output
`electrical signal, the second temperature control switch is used for detecting the environment temperature,
`when the detected temperature value exceeds the preset temperature value K2 output electrical signal. the
`input end of the first temperature control switch circuit connected with the output end of said electric source
`circuit, output end thereof is connécted with the power input end of and the alarm device, the input end of the
`second temperature control switch circuit connected with the output end of the electric source circuit, output
`end thereof is connected with the cooling device of the power input end.
`
`[0010] Preferably, the cooling device is a fan.
`
`[0011] Preferably, the pH value is larger than a value K2.
`
`[0012] Preferably, the temperature control device of the POE power supply further is provided with a step-
`down circuit, the input end of the reducing circuit is connected with the output end of the electric source circuit,
`output end thereof is connected with the temperature control circuit.
`
`[0013] Preferably, the cooling device and is connected with a filter capacitor.
`
`[0014] Preferably, the alarming device is connected with a filter capacitor C2.
`
`[0015] Preferably, the POE power supply of the temperature control device is further provided with a third
`network line input socket, the third network input socket is coupled with the input end of the electrical source
`circuit.
`
`[0016] This utility model compared with the existing technology has the following advantages: the POE power
`supply of this utility model of the temperature control device through the POE power supply, detecting
`environment temperature through the temperature control circuit, and according to the detected temperature
`value to the alarm output control electric signal, controlling the alarm device to alarm. Specifically, when the
`
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`Derwem Innovation Record View
`
`to control alarm device
`temperature control circuit
`ambient temperature exceeds a predetermined value,
`output voltage signal to the control alarm device providing working power supply, so as to control the alarm
`device send out alarm sound. therefore, when the POE power supply of the temperature control device send
`out alarm sound, the user can judge the POE electricity device of environment temperature higher than the
`POE electricity device can withstand a working temperature so that the user can timely closing device or for
`corresponding measures to cool, which can avoid device to paralysis or damage because of over—high
`temperature.
`
`Preferred Embodiment
`
`[0021] combining the following embodiments and accompanying drawings of this utility model to make further
`description:
`
`[0022] As shown in FIGS. 2 and 1, temperature control device of a POE power supply 10, used for connected
`with the POE supply device 20 and POE power receiving device 30, the POE power supply device 20 is provided
`with a network 21 and a network 21 connection plug of network wire 22, POE power receiving device 30 is
`provided with a power input socket 31 and the first cable input socket 32. Specifically, POE power supply device
`20 can be the PSE switch, POE power receiving device 30 may be some terminal based on IP. The IP telephone,
`wireless local area network access point AP, network camera and so on.
`
`[0023] POE power supply of the temperature control device 10 comprises a housing 40, a power line 41, the
`signal connection line 42 and is set in the shell 40 for detecting environment temperature and according to the
`detected temperature value output control signal of the temperature control circuit 60.
`
`4 and for the communication signal and the power signal from the power supply circuit 70, the shell 40 is
`provided with second network input socket 43, cable output socket 45, power output socket 46 and the
`alarming device 50, network plug 22 inserted into the second network input socket 43, second network input
`socket 43 is connected with the input end of the power supply circuit 70, a power supply circuit 70, the output
`end is respectively connected with input end and power supply output socket 46 of the temperature control
`circuit 60 connection. temperature control circuit, the signal output end of the 60 is connected with the alarm
`device 50, the signal connection line 42 of two sides respectively connect with the output socket 45 and the
`first network input socket 32, power cord 41 respectively connect with power supply output socket 46 and the
`power input socket 31. the power supply circuit 70 after separating the communication signal and the power
`signal, the power signal is transmitted to the temperature control circuit 60 and the input end and the power
`output socket 46, the power supply circuit 70 also provides and power receiving device 30 supplies power to
`the temperature control circuit 60.
`
`[0024] Therefore, the utility model of POE power supply of the temperature control device 10 through the POE
`power supply, detecting environment temperature through temperature control circuit 60, and outputs control
`signal to the alarm according to the detected temperature value, controlling the alarm device 50 to give an
`alarm. Specifically, when the ambient temperature exceeds a predetermined value, temperature control circuit
`60 to the control alarm device 50 outputs the voltage signal to the control alarm device 50 provides working
`power supply, so as to make the alarm device 50 sends out the alarm sound. the environment temperature
`when the temperature control device with POE supply 10 emits alarm sound, the user can know the POE device
`30 higher than the POE electricity device 30 can bear working temperature so that the user can timely closing
`device or for corresponding measures to cool so as to avoid device to paralysis or damage because of over—high
`temperature.
`
`[0025] Specific circuit connection mode wherein the power circuit 70 and the temperature control circuit 60 are
`shown in FIG. 3. Preferably, temperature control device with POE power supply 10 is further configured with a
`third network line input socket 44, third network line input socket 44 is coupled with the input end of the power
`supply circuit 70. As shown in FIG. 3, the first cable input socket 32, second network input socket 43, third
`network line input socket 44 can adopt the RJ4S socket, wherein the second network input socket 43 to support
`a 10 /100M Ethernet interface. third input socket 44 to support 1000M Ethernet interface, it can be compatible
`with Ethernet
`interface of 10 70 /100 the power supply circuit
`/1000M at
`the same time, has strong
`compatibility so as to make this utility model of POE power supply of the temperature control device 10.
`it is
`more convenient to use. power supply circuit 70 adopts TPD-12 chip of.
`
`[0026] As shown in FIG. 1, FIG. 2 and FIG. 3, preferably, the shell 40 close to the POE electricity device 30 of
`one end is provided with a cooling device 80. temperature control circuit 60 includes a first temperature control
`switch circuit 61 and the second temperature control switch circuit 62, a first temperature control switch circuit
`61 for detecting the environmental temperature, when the detected temperature value exceeds the preset
`temperature value Kl output electric signal, the second temperature control switch is used for detecting the
`environment temperature, when the detected temperature value exceeds the preset temperature value K2
`output electrical signal. the first temperature control switch circuit 61 and the input end connected with the
`output end of the power supply circuit 70, whose output end is connected with the electric source input end of
`the alarm device 50, the second temperature control switch circuit 62 and the input end connected with the
`output end of the power supply circuit 70, whose output end is connected with the electric source input end of
`the cooling device 80. Specifically,
`the cooling device 80 may be a fan, also can be other to environment
`temperature of the cooling device 80 in the existing technology. 50 can be alarm bell alarming device.
`Preferably, the pH value is larger than a value K2.
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`[0027] when the second temperature control switch circuit 62 detects the environment temperature value
`higher than K2, the second temperature control switch circuit 62 deliver the electrical signals to the power
`source input end of the fan, the fan rotates, the POE power supply of the temperature control device 10 one
`side of the power receiving device and the surrounding environment to reduce the temperature. when the
`environment temperature is equal to or lower than a value K2 is detected by the second temperature control
`switch circuit 62, stopping to deliver the electrical signals to the fan, the fan stops rotating.
`
`[0028] when the detected environment temperature is higher than the pH value when the first temperature
`control switch circuit 61, a first temperature control switch circuit 61 to alarm electric bell power supply input
`terminal to deliver the electrical signals, the alarm bell is started, send out alarm sound, the user can according
`to the alarm sound judging the environmental temperature value is higher than the power receiving device 30
`can withstand the threshold, so that the user can carry out emergency treatment, and damage to the device
`due to high temperature so as to avoid the device.
`
`5 FORMULA refers to CN103155713AC00022.tif
`
`[0029] Preferably, temperature control device with POE power supply 10 is further configured with a step-down
`circuit 90, input end of the voltage reducing circuit 90 is connected with the output end of the power supply
`circuit 70, whose output end is connected with the temperature control circuit 60. Because typically 12V, power
`supply circuit 70 outputs a voltage, the voltage is too high,
`it can not meet the voltage requirements of the
`temperature control circuit 60, the step-down circuit 90 the power supply circuit 70 outputs the voltage is
`reduced to 5V for the temperature control circuit 60. Specifically,
`the step-down circuit 90 can adopt the
`STL7805 chip.
`
`[0030] as shown in Figure 3, a first temperature control switch circuit 61 can adopt the MAX6502UKP050 chip,
`the second temperature control switch circuit 62 can adopt MAX6502UKP035 chip. that is, at this time, the K2
`value is set to be 35 degrees centigrade, pH value is 50 degrees centigrade. Of course, it can be set according
`to pH and K2 values, and selecting the corresponding MAX6502 chip.
`
`[0031] Preferably, as shown in Figure 3, cooling device 80 and is connected with a filter capacitor. the alarm
`device 50 and the filter capacitor C2 is connected. the filter capacitor and filter capacitor C2 can respectively
`make the cooling device 80 and alarm device 50 voltage on two ends is more stable.
`
`[0032] Should last explanation is, more embodiment only to explain this utility model technical solution, but
`not limiting the present utility model protection range, although reference preferred embodiment of this utility
`model as the detailed explanation, those skilled in the art should understand that can of the utility model
`technology scheme to modify or equivalent replacement, without departing from the essence and scope of this
`utility model technical solution.
`
`Description according to claim claimpixels
`
`[0017] The drawings of the utility model as the further explanation, but the embodiment in the drawings does
`not form any limitation to the utility model.
`
`is the utility model of a POE power supply temperature control device of joint structure
`[0018] picture 1
`schematic diagram;
`
`[0019] picture 2 is the utility model of a POE power supply of the temperature control device of the circuit
`schematic diagram;
`
`[0020] picture 3 is the utility model of a POE power supply of the temperature control device of the circuit
`diagram.
`
`(Translation from C/arivate Analytics)
`
`Citations
`
`Citation Record level
`
`Collapse Citing Patents (4)
`
`-
`
`Publication Publication Application
`Number
`,
`Date
`Date
`
`Assugnee/Applicant
`..
`'SUZHOU HAIXIN
`ELECTROMECHANICS
`CN102164449A 2011 08 24 2011—03 29 INDUSTRY EQUIPMENT CO
`LTD
`,
`.
`CN1021644498 2014-02-05 12011-03-29 ‘SUZHOU HAIXIN
`ELECTROMECHANICS
`
`,
`
`_
`
`Title
`
`Ion fan system
`
`\
`
`Ion fan system
`
`“
`i
`
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`:ICN102447492A2012-05-09 2011—11-18
`
`
`
`
`CN103543765A 2014- 01- 29 2012-07-13 ZTE CORP
`
`INDUSTRY EQUIPMENT CO
`LTD
`
`BEIJING ZHIXIANG PASSAT
`
`
`
`Wiring apparatus of humiture
`
`
`
`
`
`TECHNOLOGY C_O L_TD_
`Jrmonitoring;terminal
`
`Method and device for controlling
`temperature of power over
`
`
`Ethernet system
`
`
`
`Cited Patents (0)
`
`Cited Non-patents (0)
`
`UPC! Citation Patent family level
`
`Collapse DPCI Citing Patents (4)
`
`h >~—'>*]
`Relevance
`
`,,,, 7-1
`
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`DWPI Assignee/Applicant: SUZHOU HAIXIN
`
`ELECTROMECHANICAL IND EQUI (SUZH—N)
`
`DWPI Inventor: ZHANG W
`
`CN10216444QB 2011-L78422
`
`2014-02-05
`
`
`2011-03-29
`——————I
`DWPI Title: Ion draught fan system has ion draught fan
`'
`whose network connector is connected with network
`connector of other draught fan through network line
`
`i
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`ELECTROMECHANICAL IND EQUI (SUZH—N)
`DWPI Inventor: ZHANG W
`-—-—~
`—————
`
`CN102447492A 1-2012-F99679 i2012--OS-09 i2011-11-18
`.. _.._._._.__.._l_ _.____.
`.M. .____ .___ __
`DWPI Title: Temperature and humidity monitoring terminal
`has power supply module connected with power source port
`of network interface and communication module connected
`with communication port of another network interface
`DWPI Assignee/Applicant: BEIJING ZHIXIANG LINGYU
`TECHNOLOGY CO (BEIJ-N)
`DWPI Inventor: WEN X
`
`L____
`.CN103543765A I2014-F26508 12014-01-29 I 2012-07-13
`DWPI Title: Power over Ethernet system temperature control
`I method involves obtaining real-time detect system
`' temperature value and cutting off power supply according to
`
`low priority level port
`
`DWPI Assignee/Applicant: ZTE CORP (ZTEC-C)
`
`i
`
`DWPI Inventor: CHEN S
`L___
`._ __._.__ _._____-__ _____
`
`_.,,,
`
`DPCI Cited Patents (0)
`
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`-—--——--'
`——‘—-‘
`Publication
`Publication
`Accession
`
`Application DWPI Family
`
`
`
`
`Date
`Number
`Number
`Date
`Member(s)
`
`
`
`
`201].-03- 29
`2011- 08- 24
`CN201689347U A
`CN 102164449A 2011- L78422
`
`
` 0 (Examiner)
`l—._._
`
`
`
`DWPI Title: Ion draught fan system has ion draught fan
`whose network connector is connected with network
`l
`connector of other draught fan through network line
`=
`
`I
`
`
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`Collapse DPCI Citation Counts
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`_ Sect Citations
`L"
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`Firing Patents
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`Cited Patents
`Citing Authoritgs
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`lCited Authorities
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`Cited Accession Numbers
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`I_.___.__.
`*Cited Non-patents
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`
`DPCI Field of Search
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`DPCI Citing Patents Country
`CN
`
`DPCI Cited Patents Country
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`Other
`
`Attorney / Agent
`
`Guangzhou Scihead Patent Agent Co. Ltd., CN,
`
`HAO Chuan-xin, CN
`
`DWPI Title Terms
`
`‘
`
`TEMPERATURE CONTROL DEVICE POWER APPLY SOURCE CIRCUIT OUTPUT END CONNECT INPUT PLUG
`
`Custom Fields
`
`DWPI issue feed back
`
`Elena Product
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`Unified APP name
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`Comments
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`fififi
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`Technology Utility
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`highly cited docs
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`ProjectName
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`customer
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`Family
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`Case Reference
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`Primary Tech Code
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`Secondary Tech Code
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`Consolidated Assignee
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`Automotive tech areas
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`real assignee
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`Marks Field
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`TestMulti-Value
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`Office :
`
`China
`
`2016202134950
`205544597
`
`Application Date:
`Publication Date:
`
`18.03.2016
`31.08.2016
`
`U H
`
`02J 13/00
`
`CPC:
`
`Y04S 10/527
`
`Jiangsu Lianhong Automation Co., Ltd.
`Zhao Song
`Zhou Shuhua
`Liu Feng
`
`“mm“
`‘
`
`
`
`(EN) Multi -functional three -phase power monitoring device
`(ZH) —t¢§IJJfiEEtEEBjJE 12%?
`(EN) The utility model discloses a multi -
`functional three -phase power monitoring
`device belongs to electrical?safety and
`internet technology field, including little the
`control unit, and respectively with electrical
`unit, lonworks intelligence transceiver, relay
`control module, power consumption
`measurement chip, cable temperature?
`measurement?circuit, data storage circuit,
`high accuracy realtime clock circui that little
`the control unit connects. The utility model
`discloses monitoring voltage has, the
`electric current, power, power factor, the
`leakage current, the cable temperature,
`harmonic component and electric energy
`measurement, functions such as high
`accuracy calendar clock, can monitor the
`parameter for all sets up the alarming
`threshold value, it reports to the police to
`take place when the parametertransfinites can dispose shutting -off system power when reporting to the
`police, it can be used to carry out analysis and assessment to building electric energy quality to provide
`various electric energy relevant parameter data, and carry out the automatic power transmission or
`electrical shutoff control according to setting for period or long -range order, can carry out the thought that
`energy -saving control accords with the green building to for building.
`I’LL
`(ZH) Eififii‘fifl’AJ-T-T —till emsaztaEemta $§t§ ETFH flfiéfififi‘éfifi’t‘fiifi. ’fltfiti‘flttfifi'lEi.
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`
`Application Number:
`Publication Number:
`
`Publication Kind :
`
`IPC:
`
`Applicants:
`Inventors:
`
`Priority Data:
`Title:
`
`Abstract:
`
`Page 531 of 895
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`

`

`Multilhnctional three-phase power monitoring device
`
`'l‘echni cal ti el d
`
`The utility model belongs to the technical field of electric safety and energy saving, in particular to a
`multifunctional three—phase electric power monitoring device.
`
`Background technique
`
`With the rapid development of Chinals economy, people‘s living standards have increased year by year,
`the use of various electrical equipment and household equipment has increased sharply, and electrical fire
`accidents have also increased year by year. According to statistics, the national electrical fire accident is close
`to 30% of the total number of fire accidents, ranking first in all kinds of fires, causing huge losses to the
`country and people's lives and property.
`
`Electrical fires are mainly caused by electrical equipment or electrical equipment overload, short circuit,
`leakage, excessive contact resistance or insulation breakdown caused by high temperature, electric spark and
`arc. According to the onnsite investigation and analysis of electrical fire cases by fire departments, fires
`caused by ground faults due to electric leakage in electrical fires accounted for more than halip of the cases of
`electrical fires. Leakage is an important hidden danger of electrical tires, and leakage can also cause electric
`shock and power waste. Even if the building is newly built, the electrical insulation of the distribution cable
`will cause leakage due to the decrease in performance over time.
`
`in order to prevent problems, online monitoring and detection of leakage of building electrical systems
`has become an effective technical means for predicting and reducing electrical tires. The electrical fire
`leakage detection alarm is used in conjunction with the existing leakage circuit hreaker (leakage protection
`switch) to form a complete protection system for leakage "overall monitoring, local tripping". For some
`systems or terminal loads that do not allow the power supply to be cut off at all, the installation of electrical
`fire leakage detection alarms is the most ideal choice because leakage circuit breakers cannot be used.
`
`At present, there are manufacturers in Schneidernlitl’anco in the domestic market, which form a series of
`fire monitoring and alarm products from the end detectors, terminal independent monitoring equipment,
`network monitoring equipment, and central monitoring unit series. At the same time, there is a product model
`that combines tire monitoring equipment and smart meters.
`
`Related functions implemented by similar products:
`
`l. Realize the measurement, monitoring and control functions of the original three—phase multi—firnction
`power monitoring terminal.
`
`a. Short circuit, leakage, overvoltage, undervoltage, and lack of equal protection functions.
`
`3. Leakage action protection ZOmA—lDOOmA contin